In this report, we demonstrate that transgenic animals that coexpress a FAD-linked human PS1 variant (A246E) and a chimeric mouse/human APP harboring mutations linked to Swedish FAD kindreds (APP swe) develop numerous amyloid deposits much earlier than age-matched mice expressing APP swe and wild-type Hu PS1 or APP swe alone.
We now report that both human wild-type and A246E PS1 efficiently rescue the phenotypes observed in PS1(-/-) embryos, findings consistent with the view that FAD-linked PS1 mutants retain sufficient normal function during mammalian embryonic development.
Co-expression of a human presenilin-1 (PS1) transgene containing the A246EFAD mutation accelerates deposition and also favors-at least initially-accumulation of A beta(42) so that the A beta(2):A beta(40) ratio of peptides from 7- to 12-month-old APP695SWE x PS1A246E animals is significantly elevated above that observed throughout the lifetime of APP695SWE mice.